Literature DB >> 26867180

A Bacterial Pathogen Targets a Host Rab-Family GTPase Defense Pathway with a GAP.

Stefania Spanò1, Xiang Gao2, Sebastian Hannemann2, María Lara-Tejero2, Jorge E Galán3.   

Abstract

Cell-autonomous defense mechanisms are potent strategies that protect individual cells against intracellular pathogens. The Rab-family GTPase Rab32 was previously shown to restrict the intracellular human pathogen Salmonella Typhi, but its potential broader role in antimicrobial defense remains unknown. We show that Rab32 represents a general cell-autonomous, antimicrobial defense that is counteracted by two Salmonella effectors. Mice lacking Rab-32 or its nucleotide exchange factor BLOC-3 are permissive to S. Typhi infection and exhibit increased susceptibility to S. Typhimurium. S. Typhimurium counters this defense pathway by delivering two type III secretion effectors, SopD2, a Rab32 GAP, and GtgE, a specific Rab32 protease. An S. Typhimurium mutant strain lacking these two effectors exhibits markedly reduced virulence, which is fully restored in BLOC-3-deficient mice. These results demonstrate that a cell-autonomous, Rab32-dependent host defense pathway plays a central role in the defense against vacuolar pathogens and describe a mechanism evolved by a bacterial pathogen to counter it.
Copyright © 2016 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Rab GTPases; Rab32; Salmonella Typhi; Salmonella pathogenesis; bacterial pathogenesis; cell-autonomous defense; innate immunity; lysosome-related organelles; lysosomes; macrophages; membrane traffic; type III secretion; typhoid fever

Mesh:

Substances:

Year:  2016        PMID: 26867180      PMCID: PMC4854434          DOI: 10.1016/j.chom.2016.01.004

Source DB:  PubMed          Journal:  Cell Host Microbe        ISSN: 1931-3128            Impact factor:   21.023


  63 in total

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  49 in total

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Review 5.  Emerging insights into the biology of typhoid toxin.

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Review 6.  Diverted recycling-Shigella subversion of Rabs.

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8.  Quantitative Yeast Genetic Interaction Profiling of Bacterial Effector Proteins Uncovers a Role for the Human Retromer in Salmonella Infection.

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